Team:SUSTC-Shenzhen/Notebook/HeLaCell/PB5-TetOn-Cas9-PB3-plasmid-construction
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# Thaw competent cells on ice and then pre-chill by placing the tubes on ice. | # Thaw competent cells on ice and then pre-chill by placing the tubes on ice. |
Revision as of 16:07, 6 October 2014
Notebook
Elements of the endeavor.
Contents |
PB5-TetOn-Cas9-PB3 plasmid construction
2014/7/27 Construct a plamid to stably transfect HeLa cells!Step1. Endonuclease digest PX330, pBx-093
Objective
- Digest the plasmids for cloning new plasmid
Materials
- Plasmid: px330, pBx-093
- Endonuclease: AgeI, NotI, AflIII (NEB)
- Endonuclease Buffer: NEBuffer 2.1
- Some EP tube
- Water bathe
Method
Endonuclease reaction system
- AgeI + NotI + AflIII digest px330
Total volume | ddH2O | NEBuffer 2.1 | Plasmid | AgeI | NotI | AflIII |
---|---|---|---|---|---|---|
20μl | 9μl | 2μl | 6μl(xng) | 1μl | 1μl | 1μl |
- AgeI + NotI digest pBx-093
Total volume | ddH2O | NEBuffer 2.1 | Plasmid | AgeI | NotI |
---|---|---|---|---|---|
20μl | 11μl | 2μl | 5μl(xng) | 1μl | 1μl |
- Time: 5hours
- Temperature: 37°C
- Heat inactivation: 70°C 20min
Protocols
Procedure: Digestion
- Prepare all the materials, placing enzyme in ice, two EP tube marking A and B
- Pipet every component in the list and follow the oreder
- In A tube
- 9μl dd2O
- 2μl NEBuffer 2.1
- 6μl Plasmid px330
- 1μl AgeI
- 1μl NotI
- 1μl AflIII
- In B tube
- 11μl dd2O
- 2μl NEBuffer 2.1
- 5μl plasmid pBx-093
- 1μl AgeI
- 1μl NotI
- In A tube
- Incubate in 37°C for 5 hours
- After 5 hours 70°C water bath for 20min to inactivition
Supposed Results
- For pBx-093
- PB5-Puro-TetOn-PB3 vector: 7708bp
- Fragment: 2313bp
- For px330
- Cas9: 4523bp
- Fragment * 2: 1244bp + 2739bp
Results
[2014 Aug 5th 15:20pm]: Started adding all compotent according to Protocols
[2014 Aug 5th 15:30pm]: Started incubation in 37°C
[2014 Aug 5th 20:30pm]: 70°C water bathed EP tubes for 20min
[2014 Aug 5th 20:50pm]: Placed the EP tubes in ice wait for electrophoresis
Step2. Electrophoresis
Object
Seperate DNA fragment by its atom mass, so we can purify and isolate the vector and insert DNA which we need.
Materials
- DNA loading buffer
- Marker dl5000(Takara)
- Marker dl15000(Takara)
- Gel green DNA dye
- TAE buffer:
- Argarose 1%
- TAE buffer
Method
Electrophoresis system
voltage: 100V time: 40min
Digestion product of pBx-093 | Digestion product of px330 | |||||
---|---|---|---|---|---|---|
Sample ID | Sample(1) | Sample(2) | Sample(3) | Sample(4) | Sample(5) | Sample(6) |
total volume | 7.2μl | 12μl | 24μl | 7.2μl | 12μl | 24μl |
DNA volume | 6μl | |||||
Loading buffer | 1.2μl | 2μl | 4μl | 1.2μl | 2μl | 4μl |
ddH2O | 0μl | 4μl | 14μl | 0μl | 4μl | 14μl |
Protocols
- Procedure of electrophoresis
- Argarose gel making
- take 0.5g argarose
- dissovle in argarose in 50ml TEA buffer
- heating to dissolve for 1.5min
- add GelGreen*(Tiangen) 1μl
- pour the melting gel in mold
- cool down for 20min for solidification
- Load DNA Sample and marker on the gel
- Electrophoresis at 100Volt for 45minutes
Supposed Results
Due to the complete digestion, DNA sample will be seperated in to few strips on the electrophoresis image representing different DNA size.
- pBx-093
- Two strips at 7708bp(we need) and 2312bp
- px330
- Three strips at 4523bp(we need), 2734bp, 1244bp
Results
Laboratory note
[2014 Aug 5th 20:35pm] During enzyme inactivation, we made the ararose gel and poured into mold.
[2014 Aug 5th 20:55pm] Put gel into electrophoresis chamber drown with TEA buffer, set up all parameter of electrophoresis power.
[2014 Aug 5th 20:57pm] Loaded sample in the order of following table
well 1 | well 2 | well 3 | well 4 | well 5 | well 6 | well 7 | well 8 |
Marker 5000 | Sample (1) | Sample (2) | Sample (3) | Sample (4) | Sample (5) | Sample (6) | Marker 15000 |
[2014 Aug 5th 21:55pm] Took photo of gel.
Laboratory result
The image of electophoresis shows that all strips are beautifully bright and clear and straight, moreover, on the exact position relative to marker. Which means that the endonuclease digestion and electrophoresis are successful.
The first two steps are perfect for next step.
Step3. Recovery of DNA from gell
Objective
After electrophoresis, cut the correct strip, recover and purify DNA from the strip to get the exact DNA fragement we need.
Materials
- DNA Argarose recovery kit(TIANgel Midi Purification kit)
- EP tubes
- Dry heater
- Gel strip
Method
Protocols
- Procedure:
- Cut the strip form argarose gel
- Recover DNA, with recovery kit. Follow the kit protocol.
Results
Laboratory note
[2014 Aug 5th 22:00pm] Started DNA recovery.
[2014 Aug 6th 1:00pm] Finish DNA recovery and measure concentration of DNA solution
Laboratory result
- Vector PB5-Puro-Tet-PB3 : 9.3ng/μl
- Inster Cas9 protein gent: 5.7ng/μl
The concentration of DNA is good for next step.
Step4. DNA Ligation
Objective
- Recombinant DNA from the recovered DNA fragment, to construct new plasmid
Materials
- Insert DNA: Cas9 4523bp 5.7ng/μl
- Vector DNA: PB-Tet 7708bp 9.3ng/μl
- T4 ligase and buffer (NEB)
- EP tubes
- EP tube heater
Method
Using the T4 ligase to ligand the two DNA fragement to construct the new plasmid
Ligase reaction system
From the protocol of T4 ligase we the mole ratio of Vetor to Insert is 1:5. So after integral the data of the numbers base pair of two DNA and concentration, we get that the volume ratio of vector to insert is 1 : 5.3
To get the reliable data and test if vector and ligand its self, we set a negertive control group 3. We also set two parallel control group 1 and 2
The ligation reaction system
- Reaction Condition
- 37°C
- Total volume
- 20μl
- Time
- 20min
Group | 1 | 2 | 3(Neg.Ctrl.) |
---|---|---|---|
Buffer | 2μl | 2μl | 2μl |
T4 DNA Ligase | 1μl | 1μl | 1μl |
PB-TetOn | 2.7μl | 2.7μl | 2.7μl |
Cas9 | 14.3μl | 14.3μl | 14.3μl(ddH2O) |
Protocols
- Procedure: Ligation
- Prepare 3 EP tubes, marking 1,2,3.
- Add PB-TetOn DNA 2.7μl to all tubes.
- Add Cas9 DNA 14.3μl to tube1 and tube2.
- Add 14.3μl ddH2O to tubes 3.
- Add 2μl buffer to all tubes.
- Add 1μl T4 DNA Ligase to all tubes
- Place all tubes in to incubator at 37°C for 20min
- After 20min, water bath all tubes at 65°C for 10min
- Store all tubes at -20°C
Supposed Results
- In group 1 and 2, there should be circular and correct plasmid
- For negative control goupe all DNA should be linear
Results
Laboratory note
[2014 Aug 6th 10:00am] Start prepare all materials and add all reactent. [2014 Aug 6th 10:12am] Place the system in incubator at 37°C [2014 Aug 6th 10:32am] After 20min incubation, inactivation place all tubes on ep tube heater at 65°C for 10min. [2014 Aug 6th 10:42am] Store the ligation product at -20°C waiting for next step.
Step5. Transformation DH5α, Extract plasmid
Objective
Materials
- Ligation production 3 groupes
- Ice box
- EP tubes
- Competent cell: DH5α
- LB agar plate with Amp. antibiotics
- 42°C waterbath
- LB media
- Plasmid mini extract kit(TianGen)
- Pipette tips
Method
Transform the Ligation production into competent cell. All the linear DNA will not have any impact to cell and curcular plasmid may transform into competent cells. Those cell with plasmid can express the resistence to Amp. because the vector PB5-TetON-PB3 has a resistence gene of Amp.
After bacteria on plate grows into a colony, we pick up the colony inoculate into LB and incubation over night.
Protocols
Procedure: Transformation
- Thaw competent cells on ice and then pre-chill by placing the tubes on ice.
- Pipet 50μl of competent cells into 3 EP tubes.
- Pipet 1μl of ligation product DNA into each tube. Flick the tube gently to mix.
- Incubate on ice for 30 minutes.
- Heat-shock the cells, 42°C waterbath, 1 minute.
- Immediately transfer the tubes back to ice, and incubate on ice for 2 minutes.
- Add 300ul of LB media per tube, 37°C, 45 min at 180rpm.
- Prepare 4 argar plates marking 4 different groups (One without plasmid)
- Pipet 20ul from each tube, spread the mixture evenly across the plate.
- We also did a control . Except for not being transfected by plasmid, other Protocolss were all the same with those experimental groups.
- Incubate these agar plates at 37°C overnight.
Procedure: Plasmid Extract
- Pick monoclones with tweezers and a sterile white pipette tip.
- Put the tip into 3ml LB in test tube.
- Incubate test tube at 37°C over night
- Extract plasmid following the protocol of plasmid extract kit
- Concentration test with nanodrop
Supposed Results
- Clones on plates of Group1 and Group2.
- No clones on Group3 and blank.
- Can extract correct plasmid from monoclones.
Results
Laboratory note
[2014 Aug 6th 11:00am] Start transformation
[2014 Aug 6th 11:37am] Start ice icubation and have launch
[2014 Aug 6th 12:11am] Add LB, place tubes in 37°C
[2014 Aug 6th 13:00pm] Spread the mixture on plate with antibiotic Amp.
[2014 Aug 6th 13:14pm] Place all plate in 37°C .
After 21hours [2014 Aug 7th 10:00am] Picks 6 colnies and shake in 3ml LB at 37°C.
After 12hours
[2014 Aug 7th 22:00pm] Plasmid extract
Laboratory result
Group 1: 36 colonies Group 2: 90 colonies Group 3: 18 colonies Blank : 0 colonies
Plasmid | 1.1 | 1.2 | 2.1 | 2.2 | 2.3 | 2.4 |
---|---|---|---|---|---|---|
Concentratioin(ng/μl) | 540.7 | 694.6 | 557.5 | 622.9 | 654.8 | 776.9 |
Discussion
- There are 18 colones on the negative control plate. But all the DNA ligation ractant are recover from gel. So the fake positive result probably comes from the complemental last two nucleus tide of sticky end of AgeI and NotI.
- To avoid picking the fake positive plasmid we choose 6 monoclones 2 form group 1 and 4 frome group 2. Then it is almost impossible to fail to extract the correct plasmid.
Step6. Verification of plasmid
After extracting plasmid we have to verify the plasmid. We have to know wehther the plasmid is the same as we what or we have some truble.
Objective
- Digest the plasmid and electrophoresis for verification
Materials
- Endonuclease: PstI(NEB), EcoRI(NEB), EcoRV(NEB), ApaI(NEB)
- Buffer: NEBuffer 3.1, CutSmart(NEB)
- Plasmid: Endofree Cas9+Tet
- ddH2O
Protocol
DNA: | ApaI: | CutSmart: | ddH2O |
---|---|---|---|
0.6μl | 0.2μ | 1μl | 8.2μl |
- Incubation condition: 25°C 20min
- Heat inactivation: 65°C 20min
DNA | EcorI: | EcorV: | CutSmart: | ddH2O |
---|---|---|---|---|
0.6μl | 0.2μl | 0.2μl | 1μl | 8μl |
- Heat inactivation: 65°C 20min
DNA: | ApaI: | CutSmart: | ddH2O |
---|---|---|---|
0.6μl | 0.2μl | 1μl | 8.2μl |
- 37°C 20min
- Heat inactivation: 80°C 20min
After digestion electrophoresis the product of digestion
Digestion product | Loading buffer | TAE | Sample/well | Well size | Time | Voltage |
---|---|---|---|---|---|---|
10μl | 8μl | 30μl | 15μl | Large | 40min | 100v |
Supposed Results
ApaI | EcoRI+EcoRV | PstI |
---|---|---|
7725+3317 | 9929+2302 | 3916+2317+1422+1351+1212+956+254+204 |
Results
//TODO
Step7. Transformation, endo free extract
Objective
Transformation
Materials
- Plasmid number:1.2
- Ice box
- EP tubes
- Competent cell: DH5α
- LB agar plate with Amp. antibiotics
- 42°C waterbath
- LB media
Method
Protocols
Procedure
- Thaw competent cells on ice and then pre-chill by placing the tubes on ice.
- Pipet 50μl of competent cells into 1 EP tube.
- Pipet 1μl of plasmid into tube. Flick the tube gently to mix.
- Incubate on ice for 30 minutes.
- Heat-shock the cells, 42°C waterbath, 1 minute.
- Immediately transfer the tubes back to ice, and incubate on ice for 2 minutes.
- Add 300ul of LB media into tube, 37°C, 45 min at 180rpm.
- Prepare 1 argar plate marking "Cas9+TetOn"
- Pipet 20ul from tube, spread the mixture evenly across the plate.
- Incubate these agar plates at 37°C overnight.
Result
Endo-free extract
The plasmid has a resistance of ampicillin, so only those have been transformed with a plsmid can grow. After bacteria on plate grows into a colony, we pick up the colony inoculate into LB and incubation over night.
Materials
- Plasmid midi endofree extract kit(Tiangen)
- 30ml LB broth
- Pipette tips
Method
We pick up the clone and inoculate in 30ml LB broth to duplicate the bacteria as well as plasmid.
Procedure
- Pick monoclones with tweezers and a sterile white pipette tip.
- Put the tip into 30ml LB in test tube.
- Incubate test tube at 37°C over night
- Extract plasmid following the protocol of endo-free plasmid extract kit
- Concentration test with nanodrop
Results